DE102007004101A1 - Current mode differential signal transmission circuit sharing a clock output unit - Google Patents

Abstract

A current mode differential signal transmission circuit is disclosed comprising a transmitter having a first transmission module and a second transmission module. The first transmission module comprises a plurality of first output units for outputting first data and a clock output unit. The second transmission module includes a plurality of second output units for outputting second data, and the first and second transmission modules share the clock output unit.

Description

Background of the invention

1. Field of the invention

The The present invention relates to a current mode differential signal transmission circuit and more specifically, a current mode differential signal transmission circuit with common Using a clock output unit.

2. Description of the state of the technique

Current Mode differential signal transmission circuits are used to control the current or voltage of input signals to compare. For example, are low voltage differential signal (LVDS - Low Voltage differential signaling) - transmission circuits and transmission circuits for a Differential signal with reduced signal swing (RSDS - Reduced Swing differential signal), the types of current mode differential signal transfer circuits are, those with average knowledge in the field well known.

1 shows a current mode differential signal transmission circuit according to the prior art. As in 1 includes the current mode differential signal transmission circuit 100 a transmitter 102 and a receiver 104 , where the transmitter 102 a first transmission module 103 and a second transmission module 105 includes and the recipient 104 a first receiving module 107 and a second receiving module 109 includes. As in 1 The current mode differential signal transmission circuit transmits data using a conventional two-channel connection, wherein the first transmission module 103 to the first receiving module 107 corresponds and the second transmission module 105 to the second receiving module 109 corresponds. The first transmission module 103 and the second transmission module 105 have the same circuitry, and the first receive module 107 and the second receiving module 109 have the same circuitry.

The first transmission module 103 includes a plurality of first output units 103a to 103d and a first clock output unit 110 , and the second transmission unit 105 also includes a plurality of second output units 105a to 105d and a second clock output unit 112 , The first output units 103a to 103d are used to send data to the recipient 104 and the clock output units 110 and 112 are used to output data transmission clock signals C ₁ and C ₂ corresponding to data. However, each transmission module of the above-mentioned transmission circuit includes a clock output unit, and the number of clock output units increases as the number of transmission modules increases, so that the demand for terminals also increases, and this does not meet the requirements of the desired device with minimized components. A novel transmission circuit is required to solve the above-mentioned problems.

Summary the invention

It An object of the present invention is a current mode differential signal transmission circuit to provide a clock output unit to share connections to save.

According to the claimed The invention will be a current mode differential signal transmission circuit with a transmitter having a first transmission module and a second transmission module disclosed. The first transmission module includes a plurality of first output units for first data and a clock output unit, and the second transmission module a plurality of second output units for outputting second data wherein the first and the second transmission module share the clock output unit.

In addition, can the transmission circuit further a receiver comprise, which is connected to the transmitter, wherein the receiver a first receiving module and a second receiving module. The first receiving module comprises a multiplicity of first receiving units, each connected to the first output units to the receive first data, and a first clock receiving unit, the is connected to the clock output unit to receive a first data receive clock signal, that to the data transfer clock signal corresponds to receive. The second receiving module comprises a Variety of second receiving units, each with the second Output units are connected to receive the second data, and a second clock receiving unit connected to the clock output unit is connected to a second data receive clock signal to the Data transfer clock signal corresponds to receive.

Therefore The present invention reduces the IC terminals that Cost and area, to meet the requirements of the IC design.

These and other objects of the present invention will no doubt become apparent to those of ordinary skill in the art after reading the following detailed description DESCRIPTION OF THE PREFERRED EMBODIMENT SHOWN IN THE VARIOUS FIGURES AND DRAWINGS.

Short description the drawings

1 shows a current mode differential signal transmission circuit of the prior art.

2 shows a current mode differential signal transmission circuit according to the first embodiment of the present invention.

3 shows a current mode differential signal transmission circuit according to the second embodiment of the present invention.

Full description

2 shows a current mode differential signal transmission circuit 200 according to the first embodiment of the present invention. As in 2 includes the current mode differential signal transmission circuit 200 a transmitter 202 and a receiver 204 wherein the transmitter is a first transmission module 203 and a second transmission module 205 includes, and the recipient 204 a first receiving module 207 and a second receiving module 209 includes. The first transmission module 203 includes a plurality of first output units (for brevity shows 2 only three first output units 203a to 203c ) and a clock output unit 212 , and the second transmission module 205 includes a plurality of second output units (for brevity shows 2 only three second output units 205a to 205c ). As described above, the first output units become 203a to 203c and the second output units 205a to 205c used to output first data and second data respectively, and the clock output unit 212 is used to output the data transfer clock signal C corresponding to the first and second data. It should be noted that the second transmission module 205 includes no clock output units and that of the first output units of the second transmission module 205 outputted second data to the data transmission clock signal C from the clock output unit 212 is output, correspond.

Furthermore, the first receiving module comprises 207 a plurality of first receiving units (for brevity shows 2 only three first receiving units 207a to 207c ) and a first clock receiving unit 208 , The first receiving units 207a to 207c are each with the first output units 203a to 203c connected to receive first data and the first clock receiving unit 218 is with the clock output unit 212 connected to receive the first receive clock signal C ₁ , which corresponds to the data transmission clock signal C. In addition, the second receiving module comprises 209 also. a plurality of second receiving units (for the sake of brevity 2 only three second receiving units 209a to 209c ) and a second clock receiving unit 220 , The second receiving units 209a to 209c are each with the second output units 205a to 205c connected to receive second data, and the second clock receiving unit 220 is with the clock output unit 212 connected to receive the second receive clock signal C ₂ , which corresponds to the data transmission clock signal C.

In this embodiment, the clock output unit is 212 an amplifier having a positive terminal and a negative terminal, and the clock receiving units 218 . 220 are receivers with a positive connection and a negative connection. In addition, the clock receiving units include 218 . 220 also resistances 230 and 232 , Thus, to obtain the desired current while the first transmission module 203 and the second transmission module 205 the clock output unit 212 Sharing, the connecting lines between tween the transmitter 202 and the receiver 204 specially designed. As in 2 includes the current mode differential signal transmission circuit 200 Further, according to the first embodiment of the present invention, a first connection line 222 , a second connection line 224 , a third connection line 226 and a fourth connection line 228 , wherein the first connection line 222 with a positive connection of the clock output unit 212 and a positive terminal of the first clock receiving unit 218 connected, the second connection line 224 with a negative connection of the clock output unit 212 and a negative terminal of the first clock receiving unit 218 connected, the third connection line 226 with a positive connection of the clock output unit 212 and a negative terminal of the second clock receiving unit 220 is connected, and the fourth connection line 228 with a negative connection of the clock output unit 212 and a negative terminal of the second clock receiving unit 220 connected is.

Thus, the power coming from the clock output unit 212 is issued, adjusted to meet the requirements of the recipient 204 supplied stream can be met. Regarding the in 1 shown conventional current mode differential signal transmission circuit 100 For example, if the value of the first clock output unit 110 and the second clock output unit 112 to the recipient 104 output current I is the value of the clock output unit 212 out current set to 2I, whereby the current to the first clock receiving unit 218 and to the second clock receiving unit 220 also I is, as he passes through the first connection line 222 , the second connection line 224 , the third connection line 226 , the fourth connection line 228 and the resistors 230 . 232 flows. That's why the sender can 202 the in 1 shown transmitter 102 replace with the in 1 shown receiver 104 to be used. Accordingly, the value of the current may be the first clock receiving unit 218 and to the second clock receiving unit 220 by adjusting the value of the resistors 230 and 232 be set to any required value for each design.

In addition, the connection of the connection lines may be changed to provide an inverted current to the first clock receiving unit 218 so that the current mode differential signal transmission circuit according to the present invention can be applied to all devices which receive phase difference transmitted signals. 3 shows the current mode differential signal transmission circuit 300 according to the second embodiment of the present invention. The current mode differential signal transmission circuit 300 includes the same devices as the current mode differential signal transmission circuit 200 so that the process and function of all elements are omitted for the sake of brevity. A single difference between the current mode differential signal transmission circuit 200 and the current mode differential signal transmission circuit 300 is the connection structure of the clock output unit 312 , the first clock receiving unit 318 , the second clock receiving unit 320 , the first connection line 322 , the second connection line 324 , the third connection line 326 and the fourth connection line 328 , In this embodiment, the first connection line 322 with a positive connection of the clock output unit 312 and a positive terminal of the first clock receiving unit 318 connected, the second connection line 324 is with a negative connection of the clock output unit 312 and a negative terminal of the first clock receiving unit 318 connected, the third connection line 326 is with a negative connection of the clock output unit 312 and a positive terminal of the second clock receiving unit 320 connected, and the fourth connection line 328 is with a positive connection of the clock output unit 312 and a negative terminal of the second clock receiving unit 320 connected. If that of the clock output unit 312 output current is 2I, then the current C ₁ 'to the first clock receiving unit 318 and the current C ₂ 'to the second clock receiving unit 320 each I. However, the currents are the first clock receiving unit 318 and to the second clock receiving unit 320 reversed polarity, whereby the two receiving modules can generate clock signals with different phases to receive a signal.

It should be noted that in the first embodiment, the first transmission module 203 and the second transmission module 205 the clock output unit 212 of the first transmission module 203, but this does not limit the scope of the present invention. If, for example, the first transmission module 203 includes no clock output units and the second transmission module 205 a clock output unit 212 includes, the first transmission module 203 and the second transmission module 205 the clock output unit 212 of the second transmission module 205 share. In addition, it is also possible that the clock output unit is shared by a plurality of transmission modules, and therefore, this configuration also falls within the scope of the present invention. Although the clock output unit is arranged in the transmission module in the above-mentioned embodiments, the clock output unit may be provided independently from the transmission module.

Consequently can Saved ports by using the above-described circuitry be shared by the clock output unit and the requirements regarding the Electricity can be met by the connecting lines between the transmitter and the receiver. Therefore, the number of IC connectors and the cost of the assembly for the IC connections reduced can be reduced, and the number of contact surfaces can be reduced, which reduces the size of the IC. Furthermore can not needed IC pins for others Purposes are used, giving the IC greater design flexibility offers.

Of the mentioned above Circuitry can be used in any type of current mode differential signal transmission circuit such as low voltage differential signal (LVDS) - transmission circuits and transmission circuits for a Differential signal with reduced signal swing (RSDS) can be applied. When a current mode differential signal transmission circuit for processing a picture is used, then transferred the first and the second transmission module the pixel data of the odd pixels and the even pixels, respectively.

It should be noted that the structure of the connection lines between the transmitter and the receiver is not limited to those described above. Those skilled in the art can easily vary the connection method and device arrangements to achieve the desired current receive.

Certain Terms are used throughout the specification and claims that follow. to refer to specific components. Like professionals on the It may be that manufacturers of electronic equipment enter Designate component with different names. This document is intended not to distinguish between components that are in the name, but do not differ in function. In the following discussion and in the claims the terms "include" and "include" in an open one Used and should therefore be interpreted as that the "inclusive, but not limited on ... " should. In addition, should the term "connect" either an indirect or mean a direct electrical connection. Thus, if a device connected to another device, this connection can by a direct electrical connection or by an indirect one electrical connection over other devices and connections are made.

The Professionals in the field of earth easily recognize that many modifications and changes of Device and method can be made while the Teaching of the invention is maintained. Accordingly, the above Revelation should be understood to be only by measure and goal the attached claims is limited.

Claims (20)

Current Mode Differential Signal Transmission Circuit, full: a transmitter comprising: a first transmission module with a plurality of first output units to output first data and a clock output unit; and a second transmission module with a plurality of second output units for outputting second data wherein the first and the second transmission module share the clock output unit. Current mode differential signal transmission circuit according to claim 1, wherein the clock output unit outputs a data transfer clock signal and the data transfer clock signal to the first data output from the first output units and to the second output from the second output units Data corresponds. Current mode differential signal transmission circuit according to claim 1, wherein the current mode differential signal transmission circuit is a low voltage differential signal (LVDS - Low Voltage Differential Signaling) - transmission circuit is. Current mode differential signal transmission circuit according to claim 1, wherein the current mode differential signal transmission circuit is a transmission circuit for a Differential signal with reduced signal swing (RSDS - Reduced Swing differential signal) is. Current mode differential signal transmission circuit according to claim 1, wherein the first and the second Übertragungsmo module is pixel data odd or even pixels. Current mode differential signal transmission circuit according to claim 1, comprising: a receiver, the receiver includes: a first receiving module, comprising: a variety of first receiving units, each with the first output units connected to receive the first data; a first Clock receiving unit connected to the clock output unit a first data receive clock signal corresponding to the data transfer clock signal corresponds to receive; a second receiving module, comprising: a Variety of second receiving units, each with the second Output units are connected to receive the second data; a second clock receiving unit connected to the clock output unit is a second data receive clock signal corresponding to the data transfer clock signal corresponds to receive. Current mode differential signal transmission circuit according to claim 1, further comprising: a first connecting line with a positive connection of the clock output unit and a positive one Connection of the first clock receiving unit is connected; a second connection line connected to a negative terminal of the Clock output unit and a negative terminal of the first clock receiving unit connected is; a third connecting line that has a positive Connection of the clock output unit and a positive connection of the connected to the second clock receiving unit; and a fourth Connection line connected to a negative connection of the clock output unit and a negative terminal of the second clock receiving unit is. Current mode differential signal transmission circuit according to claim 6, the currents the first, second, third and fourth connecting line adjustable are. The current mode differential signal transmission circuit of claim 1, further comprising: a first connection line connected to a positive terminal of the clock output unit and a positive terminal of the first clock reception unit; a second connection line connected to a negative terminal of the clock output unit and a negative terminal of the first clock reception unit; a third connection line connected to a positive terminal of the clock output unit and a negative terminal of the second clock reception unit; and a fourth connection line connected to a negative terminal of the clock output unit and a positive terminal of the second clock receiving unit. Current mode differential signal transmission circuit according to claim 1, further comprising: a third transmission module with a Plurality of third output units for outputting third data. Current mode differential signal transmission circuit according to claim 1, the currents of the Current Mode Differential Signal Transmission Circuit are adjustable. Current mode differential signal transmission circuit, comprising: one Transmitter comprising: a first transmission module with a Plurality of first output units for outputting first data; one second transmission module a plurality of second output units for outputting second data; a Clock output unit, wherein the first transmission module and the second transmission module share the clock output unit. Current mode differential signal transmission circuit according to claim 12, wherein the clock output unit outputs a data transmission clock signal and the data transfer clock signal to the first data output from the first output units and to the second output from the second output units Data corresponds. Current mode differential signal transmission circuit according to claim 12, further comprising: a third transmission module with a Plurality of third output units for outputting third data. Current mode differential signal transmission circuit according to claim 14, wherein the first, the second and the third transmission module, the clock output unit share. Current mode differential signal transmission circuit according to claim 12, the currents of the Current Mode Differential Signal Transmission Circuit are adjustable. Current mode differential signal transmission circuit according to claim 12, wherein the current mode differential signal transmission circuit a Low Voltage Differential Signal (LVDS - Low Voltage Differential Signaling) - transmission circuit is. Current mode differential signal transmission circuit according to claim 12, wherein the current mode differential signal transmission circuit is a transmission circuit for a Differential signal with reduced signal swing (RSDS - Reduced Swing differential signal) is. Current mode differential signal transmission circuit according to claim 12, wherein the first and second transmission modules are pixel data odd or even pixels. Current mode differential signal transmission circuit according to claim 11, comprising: a receiver, connected to the transmitter, the receiver comprising: a first Receiving module comprising: a plurality of first receiving units, each connected to the first output units to the receive first data; a first clock receiving unit, the is connected to the clock output unit to receive a first data receive clock signal, that to the data transfer clock signal corresponds to receive; a second receiving module, comprising: a Variety of second receiving units, each with the second Output units are connected to receive the second data; a second clock receiving unit connected to the clock output unit is a second data receive clock signal corresponding to the data transfer clock signal corresponds to receive.